• DocumentCode
    1625352
  • Title

    A Numerical Investigation into the Influence of Langevin Noise on Vibration Measurement Using Self-Mixing Laser Diode

  • Author

    Bavogui, Javril ; Niwayama, Masatsugu ; Shinohara, Shigenobu

  • Author_Institution
    Graduate Sch. of Electron. Sci. & Technol., Shizuoka Univ., Hamamatsu
  • fYear
    2006
  • Firstpage
    1664
  • Lastpage
    1667
  • Abstract
    We report on the influence of intrinsic noise on the self-mixing signal associated with a vibrating target. The signal intensity of a semiconductor laser is investigated using a numerical simulation based on the rate equations incorporating Langevin noise forces. The photon density (signal intensity) as a function of the target displacement was calculated for the spontaneous emission factor beta=10-6~10 -4. The reconstructed displacement waveform was obtained from the sawtooth signal caused by the self-mixing effect between the backscattered light from the target and the light in the laser diode. The influence of the noise on the displacement waveform of the vibrating target as a function of the feedback amplitude reflectivity rext and the spontaneous emission factor beta was shown. While the Langevin noise is greatly affect by beta and the photon density was found to be more stable when beta is less than 10-6, we found that the amplitudes of the reconstructed waveform with different p values are close to the true value of the target displacement amplitude (7.8mum peak to peak) when rext=0.5%~1.2%. The variation coefficient in the case of rext=0.5%~1.2% remained below 7%. These results are potentially useful for precise displacement measurement
  • Keywords
    backscatter; laser noise; light interferometry; measurement by laser beam; numerical analysis; reflectivity; semiconductor lasers; spontaneous emission; vibration measurement; Langevin noise; backscattered light; displacement measurement; feedback amplitude reflectivity; numerical simulation; photon density; sawtooth signal; self-mixing laser diode; self-mixing signal; semiconductor laser; signal intensity; spontaneous emission factor; vibrating target; vibration measurement; Diode lasers; Equations; Laser feedback; Laser noise; Noise level; Numerical simulation; Semiconductor device noise; Semiconductor lasers; Spontaneous emission; Vibration measurement; Langevin noise; Semiconductor laser; Vibrating target;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    SICE-ICASE, 2006. International Joint Conference
  • Conference_Location
    Busan
  • Print_ISBN
    89-950038-4-7
  • Electronic_ISBN
    89-950038-5-5
  • Type

    conf

  • DOI
    10.1109/SICE.2006.315588
  • Filename
    4109239